The present invention relates to a corrugated fin type heat exchanger for use mainly in machines for large-scaled working such as machines for mining working and machines for construction working.
As one of corrugated fin type heat exchangers for working machines, there is one that has been improved so that, when a flat tube is damaged due to a hopping stone and the like in a work site, only the damaged flat tube can be exchanged at the site.
A heat exchanger illustrated in
When they are separated in this way, in a work site, a flow path, through which air circulate up to flat tubes lying on the downstream side relative to a ventilative direction, can be secured, and in addition clogging between flat tubes due to dust and the like can be prevented. Moreover, a working space cab be secured in replacement of a damaged tube.
In a work site, for the heat exchanger as illustrated in
In an instance of the heat exchanger illustrated in
In order to improve heat exchange efficiency of a heat exchanger, commonly, it is conducted to form a louver or a pattern on a flat surface portion of a fin, excluding the top portion and bottom portion.
However, if a louver or the like is formed as usual on a flat surface portion of the above-described fin of heat exchanger with a gap between adjacent tube elements, pressure loss increases and it becomes difficult for wind to flow.
The present invention provides a corrugated fin type heat exchanger for solving above-described respective problems.
The invention according to claim 1 is a corrugated fin type heat exchanger, including:
a flat tube 2 having a pair of even flat surface portions 2a whose horizontal sections face each other, and a pair of joining portions 2b that link both the flat surface portions;
a corrugated fin 3 having pairs of ascending surfaces 3d and descending surfaces 3e arranged alternately, and a bottom portion 3b and top portion 3c each joining respective surfaces 3d, 3e in a wavy pattern;
a plurality of tube elements 5 in which the bottom portions 3b alone of the corrugated fin 3 are joined to each of a pair of the flat surface portions 2a of the flat tube 2; and
a pair of tanks 1 into which both ends of the flat tube 2 of respective tube elements 5 are inserted, wherein:
the respective tube elements 5 are arranged with the top portions 3c of each corrugated fin 3 separated one another; and
on the ascending surface 3d and on the descending surface 3e, a projection 4 for guiding an air flow, which is parallel to a ridgeline 3a of wave of the corrugated fin, is formed in a location near to the top portion 3c.
The invention according to claim 2 is the corrugated fin type heat exchanger according to claim 1, wherein the projection 4 is formed on an outer side of the ascending surface 3d of the wave, and is formed on an inner side of the descending surface 3e of the wave.
The invention according to claim 3 is the corrugated fin type heat exchanger according to claim 1, wherein the projection 4 is formed on an outer side of the ascending surface 3d of the wave, and is formed on an outer side of the descending surface 3e of the wave.
The invention according to claim 4 is the corrugated fin type heat exchanger according to any one of claims 1 to 3, wherein, of the flat tube 2, cross-sections of both ends are formed to be cylinder-like portions 2c, and the cylinder-like portions 2c have been inserted detachably into holes of the tanks via a tubular rubber bush.
The invention according to claim 1 is a corrugated fin type heat exchanger having a plurality of tube elements 5 composed of a corrugated fin and a flat tube, in which top portions 3c of respective corrugated fins 3 are arranged separated from one another, and the projection 4 for guiding an air flow, which is parallel to the ridgeline 3a of the wave of the corrugated fin, is formed in a location near to the top portion 3c on the ascending surface 3d and on the descending surface 3e of the corrugated fin 3.
This configuration gives a barrier for preventing air from escaping from an edge on the opposite side of the joined portion of the corrugated fin 3 (on the top portion 3c side) to thereby improve the heat exchange efficiency. With this, the projection 4 is equipped on the top portion 3c side of the corrugated fin 3, resulting in high stiffness and strength against external force is improved.
In the invention according to claim 2, the projection 4 is formed on the outer side of the ascending surface 3d of the wave, and on the inner side of the descending surface 3e of the wave. In other words, projecting direction of the projections 4 equipped on the ascending surface 3d and on the descending surface 3e are formed toward the same direction.
Due to the configuration of the projections 4, an air flow that escapes from the edge of the top portion 3c of the corrugated fin 3 to a gap 8 can be reduced. Furthermore, this shape of the projection 4 is a shape that brings a minimal barrier against an air flow, and therefore pressure loss of the air flow can be suppressed.
In the invention according to claim 3, the projection 4 is formed on the outer side of the ascending surface 3d of the wave, and on the outer side of the descending surface 3e of the wave. In other words, projections 4 equipped on the ascending surface 3d and on the descending surface 3e project in directions facing each other, and therefore they work as a barrier that prevents leakage of an air flow.
Next, embodiments of the present invention will be explained on the basis of the drawings.
The heat exchanger of the present invention is a corrugated fin type heat exchanger for use, mainly, in large-scaled working machines such as mining working machines and construction working machines that are used in places with much dust, and has, in particular, such a construction that a plurality of flat tubes inserted into a pair of tanks can independently be removed and replaced.
The flat tube 2 of this heat exchanger has, as shown in
As shown in
The tube element 5 has been formed, as shown in
As shown in
Adjacent tube elements 5 are separated from each other in top portions 3c of respective corrugated fins 3, and can be set arranged in a zigzag form as shown in
A characteristic part of the present invention lies in the projection 4 having been formed on the ascending surface 3d and the descending surface 3e of the corrugated fin 3 of respective tube elements 5.
As shown in
Next,
This second embodiment differs from the first embodiment in the projection directions of the projections 4. In other words, as illustrated in
As shown in
In both first embodiment and second embodiment, the pressure loss slightly increases, but improvement in the heat release quantity is surely recognized, and improvement in heat release performance can be recognized in a heat exchanger in which tube replacement is possible.
Number | Date | Country | Kind |
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2019-004074 | Jan 2019 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2019/051648 | 12/25/2019 | WO | 00 |